/***************************************************************************
    File                 : Matrix.cpp
    Project              : SciDAVis
    Description          : Aspect providing a spreadsheet to manage MxN matrix data
    --------------------------------------------------------------------
    Copyright            : (C) 2006-2009 Tilman Benkert (thzs*gmx.net)
    Copyright            : (C) 2006-2009 Knut Franke (knut.franke*gmx.de)
    Copyright            : (C) 2006-2007 Ion Vasilief (ion_vasilief*yahoo.fr)
                           (replace * with @ in the email addresses) 

 ***************************************************************************/

/***************************************************************************
 *                                                                         *
 *  This program is free software; you can redistribute it and/or modify   *
 *  it under the terms of the GNU General Public License as published by   *
 *  the Free Software Foundation; either version 2 of the License, or      *
 *  (at your option) any later version.                                    *
 *                                                                         *
 *  This program is distributed in the hope that it will be useful,        *
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of         *
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the          *
 *  GNU General Public License for more details.                           *
 *                                                                         *
 *   You should have received a copy of the GNU General Public License     *
 *   along with this program; if not, write to the Free Software           *
 *   Foundation, Inc., 51 Franklin Street, Fifth Floor,                    *
 *   Boston, MA  02110-1301  USA                                           *
 *                                                                         *
 ***************************************************************************/
#include "matrix/future_Matrix.h"
#include "Matrix.h"
#include "core/future_Folder.h"
#include "matrixcommands.h"
#include "lib/ActionManager.h"
#include "lib/XmlStreamReader.h"

#include <QtCore>
#include <QtGui>
#include <QtDebug>

#include <stdlib.h>
#include <math.h>
#include <stdio.h>

#include <gsl/gsl_linalg.h>
#include <gsl/gsl_math.h>

namespace future{

#define WAIT_CURSOR QApplication::setOverrideCursor(QCursor(Qt::WaitCursor))
#define RESET_CURSOR QApplication::restoreOverrideCursor()

int Matrix::default_column_width = 120;
int Matrix::default_row_height = 20;

#ifndef LEGACY_CODE_0_2_x
Matrix::Matrix(AbstractScriptingEngine *engine, int rows, int cols, const QString& name)
	: AbstractPart(name), d_plot_menu(0), scripted(engine)
#else
Matrix::Matrix(void *, int rows, int cols, const QString& name)
	: AbstractPart(name), d_plot_menu(0)
#endif
{
	d_matrix_private = new Private(this);
	// set initial number of rows and columns
	appendColumns(cols);
	appendRows(rows);

	d_view = NULL;
	createActions();
	connectActions();
}

#ifndef LEGACY_CODE_0_2_x
Matrix::Matrix()
	: AbstractPart("temp"), scripted(0)
#else
Matrix::Matrix()
	: AbstractPart("temp")
#endif
{
	d_view = NULL;
	createActions();
}

Matrix::~Matrix()
{
	delete d_view;
}

void Matrix::setView(MatrixView * view)
{
	d_view = view; 
	addActionsToView();
	connect(d_view, SIGNAL(controlTabBarStatusChanged(bool)), this, SLOT(adjustTabBarAction(bool)));
	adjustTabBarAction(true);
}

QWidget *Matrix::view()
{
#ifndef LEGACY_CODE_0_2_x
	if (!d_view)
	{
		d_view = new MatrixView(this); 
		addActionsToView();
		connect(d_view, SIGNAL(controlTabBarStatusChanged(bool)), this, SLOT(adjustTabBarAction(bool)));
		adjustTabBarAction(true);
	}
#else
	Q_ASSERT(d_view != NULL);
#endif
	return d_view;
}

void Matrix::insertColumns(int before, int count)
{
	if( count < 1 || before < 0 || before > columnCount()) return;
	WAIT_CURSOR;
	beginMacro(QObject::tr("%1: insert %2 column(s)").arg(name()).arg(count));
	exec(new MatrixInsertColumnsCmd(d_matrix_private, before, count));
	endMacro();
	RESET_CURSOR;
}

void Matrix::removeColumns(int first, int count)
{
	if( count < 1 || first < 0 || first+count > columnCount()) return;
	WAIT_CURSOR;
	beginMacro(QObject::tr("%1: remove %2 column(s)").arg(name()).arg(count));
	exec(new MatrixRemoveColumnsCmd(d_matrix_private, first, count));
	endMacro();
	RESET_CURSOR;
}

void Matrix::removeRows(int first, int count)
{
	if( count < 1 || first < 0 || first+count > rowCount()) return;
	WAIT_CURSOR;
	beginMacro(QObject::tr("%1: remove %2 row(s)").arg(name()).arg(count));
	exec(new MatrixRemoveRowsCmd(d_matrix_private, first, count));
	endMacro();
	RESET_CURSOR;
}

void Matrix::insertRows(int before, int count)
{
	if( count < 1 || before < 0 || before > rowCount()) return;
	WAIT_CURSOR;
	beginMacro(QObject::tr("%1: insert %2 row(s)").arg(name()).arg(count));
	exec(new MatrixInsertRowsCmd(d_matrix_private, before, count));
	endMacro();
	RESET_CURSOR;
}

void Matrix::setDimensions(int rows, int cols)
{
	if( (rows < 0) || (cols < 0 ) || (rows == rowCount() && cols == columnCount()) ) return;
	WAIT_CURSOR;
	beginMacro(QObject::tr("%1: set matrix size to %2x%3").arg(name()).arg(rows).arg(cols));
	int col_diff = cols - columnCount();
	int row_diff = rows - rowCount();
	if(col_diff > 0)
		exec(new MatrixInsertColumnsCmd(d_matrix_private, columnCount(), col_diff));
	else if(col_diff < 0)
		exec(new MatrixRemoveColumnsCmd(d_matrix_private, columnCount()+col_diff, -col_diff));
	if(row_diff > 0)
		exec(new MatrixInsertRowsCmd(d_matrix_private, rowCount(), row_diff));
	else if(row_diff < 0)
		exec(new MatrixRemoveRowsCmd(d_matrix_private, rowCount()+row_diff, -row_diff));
	endMacro();
	RESET_CURSOR;
}

int Matrix::columnCount() const
{
	return d_matrix_private->columnCount();
}

int Matrix::rowCount() const
{
	return d_matrix_private->rowCount();
}

void Matrix::clear()
{
	WAIT_CURSOR;
	beginMacro(QObject::tr("%1: clear").arg(name()));
	exec(new MatrixClearCmd(d_matrix_private));
	endMacro();
	RESET_CURSOR;
}

double Matrix::cell(int row, int col) const
{
	if(row < 0 || row >= rowCount() ||
	   col < 0 || col >= columnCount()) return 0.0;
	return d_matrix_private->cell(row, col);
}

void Matrix::cutSelection()
{
	if (!d_view) return;
	int first = d_view->firstSelectedRow();
	if( first < 0 ) return;

	WAIT_CURSOR;
	beginMacro(tr("%1: cut selected cell(s)").arg(name()));
	copySelection();
	clearSelectedCells();
	endMacro();
	RESET_CURSOR;
}

void Matrix::copySelection()
{
	if (!d_view) return;
	int first_col = d_view->firstSelectedColumn(false);
	if(first_col == -1) return;
	int last_col = d_view->lastSelectedColumn(false);
	if(last_col == -2) return;
	int first_row = d_view->firstSelectedRow(false);
	if(first_row == -1)	return;
	int last_row = d_view->lastSelectedRow(false);
	if(last_row == -2) return;
	int cols = last_col - first_col +1;
	int rows = last_row - first_row +1;
	
	WAIT_CURSOR;
	QString output_str;

	for(int r=0; r<rows; r++)
	{
		for(int c=0; c<cols; c++)
		{
			if(d_view->isCellSelected(first_row + r, first_col + c))
				output_str += QLocale().toString(cell(first_row + r, first_col + c), 
						d_matrix_private->numericFormat(), 16); // copy with max. precision
			if(c < cols-1)
				output_str += "\t";
		}
		if(r < rows-1)
			output_str += "\n";
	}
	QApplication::clipboard()->setText(output_str);
	RESET_CURSOR;
}

void Matrix::pasteIntoSelection()
{
	if (!d_view) return;
	if(columnCount() < 1 || rowCount() < 1) return;

	WAIT_CURSOR;
	beginMacro(tr("%1: paste from clipboard").arg(name()));

	int first_col = d_view->firstSelectedColumn(false);
	int last_col = d_view->lastSelectedColumn(false);
	int first_row = d_view->firstSelectedRow(false);
	int last_row = d_view->lastSelectedRow(false);
	int input_row_count = 0;
	int input_col_count = 0;
	int rows, cols;

	const QClipboard *clipboard = QApplication::clipboard();
	const QMimeData *mimeData = clipboard->mimeData();;
	if(mimeData->hasText())
	{
		QString input_str = QString(clipboard->text());
		QList< QStringList > cell_texts;
		QStringList input_rows(input_str.split(QRegExp("\\n|\\r\\n|\\r")));
		input_row_count = input_rows.count();
		input_col_count = 0;
		for(int i=0; i<input_row_count; i++)
		{
			cell_texts.append(input_rows.at(i).split("\t"));
			if(cell_texts.at(i).count() > input_col_count) input_col_count = cell_texts.at(i).count();
		}

		if( (first_col == -1 || first_row == -1) ||
			(last_row == first_row && last_col == first_col) )
		// if the is no selection or only one cell selected, the
		// selection will be expanded to the needed size from the current cell
		{
			int current_row, current_col;
			d_view->getCurrentCell(&current_row, &current_col);
			if(current_row == -1) current_row = 0;
			if(current_col == -1) current_col = 0;
			d_view->setCellSelected(current_row, current_col);
			first_col = current_col;
			first_row = current_row;
			last_row = first_row + input_row_count -1;
			last_col = first_col + input_col_count -1;
			// resize the matrix if necessary
			if(last_col >= columnCount())
				appendColumns(last_col+1-columnCount());
			if(last_row >= rowCount())
				appendRows(last_row+1-rowCount());
			// select the rectangle to be pasted in
			d_view->setCellsSelected(first_row, first_col, last_row, last_col);
		}

		rows = last_row - first_row + 1;
		cols = last_col - first_col + 1;
		for(int r=0; r<rows && r<input_row_count; r++)
		{
			for(int c=0; c<cols && c<input_col_count; c++)
			{
				if(d_view->isCellSelected(first_row + r, first_col + c) && (c < cell_texts.at(r).count()) )
				{
					setCell(first_row + r, first_col + c, cell_texts.at(r).at(c).toDouble());
				}
			}
		}
	}
	endMacro();
	RESET_CURSOR;
}

void Matrix::insertEmptyColumns()
{
	if (!d_view) return;
	int first = d_view->firstSelectedColumn();
	int last = d_view->lastSelectedColumn();
	if( first < 0 ) return;
	int count, current = first;

	WAIT_CURSOR;
	beginMacro(QObject::tr("%1: insert empty column(s)").arg(name()));
	while( current <= last )
	{
		current = first+1;
		while( current <= last && d_view->isColumnSelected(current) ) current++;
		count = current-first;
		insertColumns(first, count);
		current += count;
		last += count;
		while( current <= last && !d_view->isColumnSelected(current) ) current++;
		first = current;
	}
	endMacro();
	RESET_CURSOR;
}

void Matrix::removeSelectedColumns()
{
	if (!d_view) return;
	int first = d_view->firstSelectedColumn();
	int last = d_view->lastSelectedColumn();
	if( first < 0 ) return;

	WAIT_CURSOR;
	beginMacro(QObject::tr("%1: remove selected column(s)").arg(name()));
	for(int i=last; i>=first; i--)
		if(d_view->isColumnSelected(i, false)) removeColumns(i, 1);
	endMacro();
	RESET_CURSOR;
}

void Matrix::clearSelectedColumns()
{
	if (!d_view) return;
	WAIT_CURSOR;
	beginMacro(QObject::tr("%1: clear selected column(s)").arg(name()));
	for(int i=0; i<columnCount(); i++)
		if(d_view->isColumnSelected(i, false))
			exec(new MatrixClearColumnCmd(d_matrix_private, i));
	endMacro();
	RESET_CURSOR;
}

void Matrix::insertEmptyRows()
{
	if (!d_view) return;
	int first = d_view->firstSelectedRow();
	int last = d_view->lastSelectedRow();
	int count, current = first;

	if( first < 0 ) return;

	WAIT_CURSOR;
	beginMacro(QObject::tr("%1: insert empty rows(s)").arg(name()));
	while( current <= last )
	{
		current = first+1;
		while( current <= last && d_view->isRowSelected(current) ) current++;
		count = current-first;
		insertRows(first, count);
		current += count;
		last += count;
		while( current <= last && !d_view->isRowSelected(current) ) current++;
		first = current;
	}
	endMacro();
	RESET_CURSOR;
}

void Matrix::removeSelectedRows()
{
	if (!d_view) return;
	int first = d_view->firstSelectedRow();
	int last = d_view->lastSelectedRow();
	if( first < 0 ) return;

	WAIT_CURSOR;
	beginMacro(QObject::tr("%1: remove selected rows(s)").arg(name()));
	for(int i=last; i>=first; i--)
		if(d_view->isRowSelected(i, false)) removeRows(i, 1);
	endMacro();
	RESET_CURSOR;
}

void Matrix::clearSelectedRows()
{
	if (!d_view) return;
	int first = d_view->firstSelectedRow();
	int last = d_view->lastSelectedRow();
	if( first < 0 ) return;

	WAIT_CURSOR;
	beginMacro(QObject::tr("%1: clear selected rows(s)").arg(name()));
	for(int i=first; i<=last; i++)
	{
		if(d_view->isRowSelected(i))
			for(int j=0; j<columnCount(); j++)
				exec(new MatrixSetCellValueCmd(d_matrix_private, i, j, 0.0));
	}
	endMacro();
	RESET_CURSOR;
}

void Matrix::clearSelectedCells()
{
	if (!d_view) return;
	int first_row = d_view->firstSelectedRow();
	int last_row = d_view->lastSelectedRow();
	if( first_row < 0 ) return;
	int first_col = d_view->firstSelectedColumn();
	int last_col = d_view->lastSelectedColumn();
	if( first_col < 0 ) return;

	WAIT_CURSOR;
	beginMacro(tr("%1: clear selected cell(s)").arg(name()));
	for(int i=first_row; i<=last_row; i++)
		for(int j=first_col; j<=last_col; j++)
			if(d_view->isCellSelected(i, j))
				exec(new MatrixSetCellValueCmd(d_matrix_private, i, j, 0.0));
	endMacro();
	RESET_CURSOR;
}

QMenu *Matrix::createContextMenu() const
{
	QMenu *menu = AbstractPart::createContextMenu();
	Q_ASSERT(menu);
	menu->addSeparator();
	
	menu->addAction(action_duplicate);
	// TODO menu->addAction( ....

	return menu;
}

QMenu * Matrix::createSelectionMenu(QMenu * append_to)
{
	QMenu * menu = append_to;
	if(!menu)
		menu = new QMenu();

	menu->addAction(action_cut_selection);
	menu->addAction(action_copy_selection);
	menu->addAction(action_paste_into_selection);
	menu->addAction(action_clear_selection);

	return menu;
}


QMenu * Matrix::createColumnMenu(QMenu * append_to)
{
	QMenu * menu = append_to;
	if(!menu)
		menu = new QMenu();

	menu->addAction(action_insert_columns);
	menu->addAction(action_remove_columns);
	menu->addAction(action_clear_columns);
	menu->addSeparator();
	menu->addAction(action_edit_coordinates);
	
	return menu;
}

QMenu * Matrix::createMatrixMenu(QMenu * append_to) 
{
	QMenu * menu = append_to;
	if(!menu)
		menu = new QMenu();

	menu->addAction(action_toggle_tabbar);
	menu->addSeparator();
	menu->addAction(action_select_all);
	menu->addAction(action_clear_matrix);
	menu->addSeparator();
	menu->addAction(action_set_formula);
	menu->addAction(action_recalculate);
	menu->addSeparator();
	menu->addAction(action_edit_format);
	menu->addSeparator();
	menu->addAction(action_go_to_cell);

	return menu;
}

QMenu * Matrix::createRowMenu(QMenu * append_to) 
{
	QMenu * menu = append_to;
	if(!menu)
		menu = new QMenu();

	menu->addAction(action_insert_rows);
	menu->addAction(action_remove_rows);
	menu->addAction(action_clear_rows);
	menu->addSeparator();
	menu->addAction(action_edit_coordinates);

	return menu;
}


void Matrix::createActions()
{
	QIcon * icon_temp;

	// selection related actions
	action_cut_selection = new QAction(QIcon(QPixmap(":/cut.xpm")), tr("Cu&t"), this);
	actionManager()->addAction(action_cut_selection, "cut_selection");

	action_copy_selection = new QAction(QIcon(QPixmap(":/copy.xpm")), tr("&Copy"), this);
	actionManager()->addAction(action_copy_selection, "copy_selection");

	action_paste_into_selection = new QAction(QIcon(QPixmap(":/paste.xpm")), tr("Past&e"), this);
	actionManager()->addAction(action_paste_into_selection, "paste_into_selection"); 

	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/clear.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/clear.png"));
	action_clear_selection = new QAction(*icon_temp, tr("Clea&r","clear selection"), this);
	actionManager()->addAction(action_clear_selection, "clear_selection"); 
	delete icon_temp;

	// matrix related actions
	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/fx.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/fx.png"));
	action_set_formula = new QAction(*icon_temp, tr("Assign &Formula"), this);
	action_set_formula->setShortcut(tr("Alt+Q"));
	actionManager()->addAction(action_set_formula, "set_formula"); 
	delete icon_temp;
	
	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/recalculate.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/recalculate.png"));
	action_recalculate = new QAction(*icon_temp, tr("Recalculate"), this);
	action_recalculate->setShortcut(tr("Ctrl+Return"));
	actionManager()->addAction(action_recalculate, "recalculate"); 
	delete icon_temp;

	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/table_options.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/table_options.png"));
	action_toggle_tabbar = new QAction(*icon_temp, QString("Show/Hide Controls"), this); // show/hide control tabs
	action_toggle_tabbar->setShortcut(tr("F12"));
	actionManager()->addAction(action_toggle_tabbar, "toggle_tabbar"); 
	delete icon_temp;

	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/select_all.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/select_all.png"));
	action_select_all = new QAction(*icon_temp, tr("Select All"), this);
	actionManager()->addAction(action_select_all, "select_all"); 
	delete icon_temp;

	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/clear_table.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/clear_table.png"));
	action_clear_matrix = new QAction(*icon_temp, tr("Clear Matrix"), this);
	actionManager()->addAction(action_clear_matrix, "clear_matrix"); 
	delete icon_temp;

	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/go_to_cell.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/go_to_cell.png"));
	action_go_to_cell = new QAction(*icon_temp, tr("&Go to Cell"), this);
	action_go_to_cell->setShortcut(tr("Ctrl+Alt+G"));
	actionManager()->addAction(action_go_to_cell, "go_to_cell"); 
	delete icon_temp;

	action_transpose = new QAction(tr("&Transpose"), this);
	actionManager()->addAction(action_transpose, "transpose"); 

	action_mirror_horizontally = new QAction(tr("Mirror &Horizontally"), this);
	actionManager()->addAction(action_mirror_horizontally, "mirror_horizontally"); 

	action_mirror_vertically = new QAction(tr("Mirror &Vertically"), this);
	actionManager()->addAction(action_mirror_vertically, "mirror_vertically"); 

	action_import_image = new QAction(tr("&Import Image", "import image as matrix"), this);
	actionManager()->addAction(action_import_image, "import_image"); 
	
	action_duplicate = new QAction(QIcon(QPixmap(":/duplicate.xpm")), tr("&Duplicate", "duplicate matrix"), this);
	actionManager()->addAction(action_duplicate, "duplicate"); 
	
	action_dimensions_dialog = new QAction(QIcon(QPixmap(":/resize.xpm")), tr("&Dimensions", "matrix size"), this);
	actionManager()->addAction(action_dimensions_dialog, "dimensions_dialog"); 
	
	action_edit_coordinates = new QAction(tr("Set &Coordinates"), this);
	actionManager()->addAction(action_edit_coordinates, "edit_coordinates"); 
	
	action_edit_format = new QAction(tr("Set Display &Format"), this);
	actionManager()->addAction(action_edit_format, "edit_format"); 

	// column related actions
	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/insert_column.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/insert_column.png"));
	action_insert_columns = new QAction(*icon_temp, tr("&Insert Empty Columns"), this);
	actionManager()->addAction(action_insert_columns, "insert_columns"); 
	delete icon_temp;

	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/remove_column.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/remove_column.png"));
	action_remove_columns = new QAction(*icon_temp, tr("Remo&ve Columns"), this);
	actionManager()->addAction(action_remove_columns, "remove_columns"); 
	delete icon_temp;

	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/clear_column.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/clear_column.png"));
	action_clear_columns = new QAction(*icon_temp, tr("Clea&r Columns"), this);
	actionManager()->addAction(action_clear_columns, "clear_columns"); 
	delete icon_temp;

	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/add_columns.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/add_columns.png"));
	action_add_columns = new QAction(*icon_temp, tr("&Add Columns"), this);
	actionManager()->addAction(action_add_columns, "add_columns"); 
	delete icon_temp;

	// row related actions
	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/insert_row.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/insert_row.png"));
	action_insert_rows = new QAction(*icon_temp ,tr("&Insert Empty Rows"), this);;
	actionManager()->addAction(action_insert_rows, "insert_rows"); 
	delete icon_temp;

	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/remove_row.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/remove_row.png"));
	action_remove_rows = new QAction(*icon_temp, tr("Remo&ve Rows"), this);;
	actionManager()->addAction(action_remove_rows, "remove_rows"); 
	delete icon_temp;

	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/clear_row.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/clear_row.png"));
	action_clear_rows = new QAction(*icon_temp, tr("Clea&r Rows"), this);;
	actionManager()->addAction(action_clear_rows, "clear_rows"); 
	delete icon_temp;

	icon_temp = new QIcon();
	icon_temp->addPixmap(QPixmap(":/16x16/add_rows.png"));
	icon_temp->addPixmap(QPixmap(":/32x32/add_rows.png"));
	action_add_rows = new QAction(*icon_temp, tr("&Add Rows"), this);;
	actionManager()->addAction(action_add_rows, "add_rows"); 
	delete icon_temp;
}

void Matrix::connectActions()
{
	connect(action_cut_selection, SIGNAL(triggered()), this, SLOT(cutSelection()));
	connect(action_copy_selection, SIGNAL(triggered()), this, SLOT(copySelection()));
	connect(action_paste_into_selection, SIGNAL(triggered()), this, SLOT(pasteIntoSelection()));
	connect(action_set_formula, SIGNAL(triggered()), this, SLOT(editFormula()));
	connect(action_edit_coordinates, SIGNAL(triggered()), this, SLOT(editCoordinates()));
	connect(action_edit_format, SIGNAL(triggered()), this, SLOT(editFormat()));
	connect(action_clear_selection, SIGNAL(triggered()), this, SLOT(clearSelectedCells()));
#ifdef LEGACY_CODE_0_2_x
	connect(action_recalculate, SIGNAL(triggered()), this, SLOT(recalculateSelectedCells()));
#endif
	connect(action_select_all, SIGNAL(triggered()), this, SLOT(selectAll()));
	connect(action_clear_matrix, SIGNAL(triggered()), this, SLOT(clear()));
	connect(action_transpose, SIGNAL(triggered()), this, SLOT(transpose()));
	connect(action_mirror_horizontally, SIGNAL(triggered()), this, SLOT(mirrorHorizontally()));
	connect(action_mirror_vertically, SIGNAL(triggered()), this, SLOT(mirrorVertically()));
	connect(action_go_to_cell, SIGNAL(triggered()), this, SLOT(goToCell()));
	connect(action_dimensions_dialog, SIGNAL(triggered()), this, SLOT(dimensionsDialog()));
	connect(action_import_image, SIGNAL(triggered()), this, SLOT(importImageDialog()));
	connect(action_duplicate, SIGNAL(triggered()), this, SLOT(duplicate()));
	connect(action_insert_columns, SIGNAL(triggered()), this, SLOT(insertEmptyColumns()));
	connect(action_remove_columns, SIGNAL(triggered()), this, SLOT(removeSelectedColumns()));
	connect(action_clear_columns, SIGNAL(triggered()), this, SLOT(clearSelectedColumns()));
	connect(action_insert_rows, SIGNAL(triggered()), this, SLOT(insertEmptyRows()));
	connect(action_remove_rows, SIGNAL(triggered()), this, SLOT(removeSelectedRows()));
	connect(action_clear_rows, SIGNAL(triggered()), this, SLOT(clearSelectedRows()));
	connect(action_add_columns, SIGNAL(triggered()), this, SLOT(addColumns()));
	connect(action_add_rows, SIGNAL(triggered()), this, SLOT(addRows()));
}

void Matrix::addActionsToView()
{
	connect(action_toggle_tabbar, SIGNAL(triggered()), d_view, SLOT(toggleControlTabBar()));

	d_view->addAction(action_cut_selection);
	d_view->addAction(action_copy_selection);
	d_view->addAction(action_paste_into_selection);
	d_view->addAction(action_set_formula);
	d_view->addAction(action_edit_coordinates);
	d_view->addAction(action_edit_format);
	d_view->addAction(action_clear_selection);
	d_view->addAction(action_recalculate);
	d_view->addAction(action_toggle_tabbar);
	d_view->addAction(action_select_all);
	d_view->addAction(action_clear_matrix);
	d_view->addAction(action_transpose);
	d_view->addAction(action_mirror_horizontally);
	d_view->addAction(action_mirror_vertically);
	d_view->addAction(action_go_to_cell);
	d_view->addAction(action_dimensions_dialog);
	d_view->addAction(action_import_image);
#ifndef LEGACY_CODE_0_2_x
	d_view->addAction(action_duplicate);
#endif
	d_view->addAction(action_insert_columns);
	d_view->addAction(action_remove_columns);
	d_view->addAction(action_clear_columns);
	d_view->addAction(action_insert_rows);
	d_view->addAction(action_remove_rows);
	d_view->addAction(action_clear_rows);
	d_view->addAction(action_add_columns);
	d_view->addAction(action_add_rows);
}


bool Matrix::fillProjectMenu(QMenu * menu)
{
	menu->setTitle(tr("&Matrix"));

	menu->addAction(action_toggle_tabbar);
	menu->addSeparator();
	menu->addAction(action_edit_coordinates);
	menu->addAction(action_dimensions_dialog);
	menu->addAction(action_edit_format);
	menu->addSeparator();
	menu->addAction(action_set_formula);
	menu->addAction(action_recalculate);
	menu->addSeparator();
	menu->addAction(action_clear_matrix);
	menu->addAction(action_transpose);
	menu->addAction(action_mirror_horizontally);
	menu->addAction(action_mirror_vertically);
	menu->addSeparator();
#ifndef LEGACY_CODE_0_2_x
	menu->addAction(action_duplicate);
#endif
	menu->addAction(action_import_image);
	menu->addSeparator();
	menu->addAction(action_go_to_cell);

	return true;

	// TODO:
	// Convert to Table
	// Export 
}

void Matrix::showMatrixViewContextMenu(const QPoint& pos)
{
	if (!d_view) return;
	QMenu context_menu;
	
	createSelectionMenu(&context_menu);
	context_menu.addSeparator();
	createMatrixMenu(&context_menu);
	context_menu.addSeparator();

	context_menu.exec(pos);
}

void Matrix::showMatrixViewColumnContextMenu(const QPoint& pos)
{
	QMenu context_menu;
	
	createColumnMenu(&context_menu);

	context_menu.exec(pos);
}

void Matrix::showMatrixViewRowContextMenu(const QPoint& pos)
{
	QMenu context_menu;
	
	createRowMenu(&context_menu);

	context_menu.exec(pos);
}

void Matrix::goToCell()
{
	if (!d_view) return;
	bool ok;

	int col = QInputDialog::getInteger(0, tr("Go to Cell"), tr("Enter column"),
			1, 1, columnCount(), 1, &ok);
	if ( !ok ) return;

	int row = QInputDialog::getInteger(0, tr("Go to Cell"), tr("Enter row"),
			1, 1, rowCount(), 1, &ok);
	if ( !ok ) return;

	d_view->goToCell(row-1, col-1);
}

void Matrix::copy(Matrix * other)
{
	WAIT_CURSOR;
	beginMacro(QObject::tr("%1: copy %2").arg(name()).arg(other->name()));
	int rows = other->rowCount();
	int columns = other->columnCount();
	setDimensions(rows, columns);
	for (int i=0; i<rows; i++)
		setRowHeight(i, other->rowHeight(i));
	for (int i=0; i<columns; i++)
		setColumnWidth(i, other->columnWidth(i));
	d_matrix_private->blockChangeSignals(true);
	for (int i=0; i<columns; i++)
		setColumnCells(i, 0, rows-1, other->columnCells(i, 0, rows-1));
	setCoordinates(other->xStart(), other->xEnd(), other->yStart(), other->yEnd());
	setNumericFormat(other->numericFormat());
	setDisplayedDigits(other->displayedDigits());
	setFormula(other->formula());
	d_matrix_private->blockChangeSignals(false);
	emit dataChanged(0, 0, rows-1, columns-1);
	if (d_view) d_view->rereadSectionSizes();
	endMacro();
	RESET_CURSOR;
}

void Matrix::setPlotMenu(QMenu * menu)
{
	d_plot_menu = menu;
}

QIcon Matrix::icon() const
{
	QIcon ico;
	ico.addPixmap(QPixmap(":/16x16/matrix.png"));
	ico.addPixmap(QPixmap(":/24x24/matrix.png"));
	ico.addPixmap(QPixmap(":/32x32/matrix.png"));
	return ico;
}

QString Matrix::text(int row, int col)
{
	return QLocale().toString(cell(row,col), d_matrix_private->numericFormat(), d_matrix_private->displayedDigits());
}

void Matrix::selectAll()
{
	if (!d_view) return;
	d_view->selectAll();
}

void Matrix::setCell(int row, int col, double value)
{
	if(row < 0 || row >= rowCount()) return;
	if(col < 0 || col >= columnCount()) return;
	exec(new MatrixSetCellValueCmd(d_matrix_private, row, col, value));
}

void Matrix::dimensionsDialog()
{
	bool ok;

	int cols = QInputDialog::getInteger(0, tr("Set Matrix Dimensions"), tr("Enter number of columns"),
			columnCount(), 1, 1e9, 1, &ok);
	if ( !ok ) return;

	int rows = QInputDialog::getInteger(0, tr("Set Matrix Dimensions"), tr("Enter number of rows"),
			rowCount(), 1, 1e9, 1, &ok);
	if ( !ok ) return;
	
	setDimensions(rows, cols);
}

void Matrix::importImageDialog()
{
	QList<QByteArray> formats = QImageReader::supportedImageFormats();
	QString filter = tr("Images") + " (";
	for (int i=0; i<formats.count(); i++)
		filter += " *."+formats.at(i)+" ";
	filter += ");;";
	for (int i=0; i<formats.count(); i++)
		filter += " *."+formats.at(i)+" (*." + formats.at(i) +");;";

	QString images_path = global("images_path").toString();
	QString file_name = QFileDialog::getOpenFileName(0, tr("Import image from file"), images_path, filter);
	if ( !file_name.isEmpty() )
	{
		QFileInfo file_info(file_name);
		images_path = file_info.canonicalPath();
		setGlobal("images_path", images_path);
		QImage image(file_name);
		Matrix * matrix = NULL;
		if (!image.isNull())
			matrix = Matrix::fromImage(image);
		if (matrix)
		{
			copy(matrix);
			delete matrix;
		}
		else
			QMessageBox::information(0, tr("Error importing image"), tr("Import of image '%1' failed").arg(file_name));
	}
}

void Matrix::duplicate()
{
#ifndef LEGACY_CODE_0_2_x
	Matrix * matrix = new Matrix(0, rowCount(), columnCount(), name());
	matrix->copy(this);
	if (folder())
		folder()->addChild(matrix);
#endif
}

void Matrix::editFormat()
{
	if (!d_view) return;
	d_view->showControlFormatTab();
}

void Matrix::editCoordinates()
{
	if (!d_view) return;
	d_view->showControlCoordinatesTab();
}

void Matrix::editFormula()
{
	if (!d_view) return;
	d_view->showControlFormulaTab();
}

void Matrix::addRows()
{
	if (!d_view) return;
	WAIT_CURSOR;
	int count = d_view->selectedRowCount(false);
	beginMacro(QObject::tr("%1: add %2 rows(s)").arg(name()).arg(count));
	exec(new MatrixInsertRowsCmd(d_matrix_private, rowCount(), count));
	endMacro();
	RESET_CURSOR;
}

void Matrix::addColumns()
{
	if (!d_view) return;
	WAIT_CURSOR;
	int count = d_view->selectedRowCount(false);
	beginMacro(QObject::tr("%1: add %2 column(s)").arg(name()).arg(count));
	exec(new MatrixInsertColumnsCmd(d_matrix_private, columnCount(), count));
	endMacro();
	RESET_CURSOR;
}

void Matrix::setXStart(double x)
{
	WAIT_CURSOR;
	exec(new MatrixSetCoordinatesCmd(d_matrix_private, x, xEnd(), yStart(), yEnd()));
	RESET_CURSOR;
}

void Matrix::setXEnd(double x)
{
	WAIT_CURSOR;
	exec(new MatrixSetCoordinatesCmd(d_matrix_private, xStart(), x, yStart(), yEnd()));
	RESET_CURSOR;
}

void Matrix::setYStart(double y)
{
	WAIT_CURSOR;
	exec(new MatrixSetCoordinatesCmd(d_matrix_private, xStart(), xEnd(), y, yEnd()));
	RESET_CURSOR;
}

void Matrix::setYEnd(double y)
{
	WAIT_CURSOR;
	exec(new MatrixSetCoordinatesCmd(d_matrix_private, xStart(), xEnd(), yStart(), y));
	RESET_CURSOR;
}

void Matrix::setCoordinates(double x1, double x2, double y1, double y2)
{
	WAIT_CURSOR;
	exec(new MatrixSetCoordinatesCmd(d_matrix_private, x1, x2, y1, y2));
	RESET_CURSOR;
}

void Matrix::setNumericFormat(char format)
{
	if (format == numericFormat()) return;
	WAIT_CURSOR;
	exec(new MatrixSetFormatCmd(d_matrix_private, format));
	RESET_CURSOR;
}

void Matrix::setDisplayedDigits(int digits)
{
	if (digits == displayedDigits()) return;
	WAIT_CURSOR;
	exec(new MatrixSetDigitsCmd(d_matrix_private, digits));
	RESET_CURSOR;
}

double Matrix::xStart() const
{ 
	return d_matrix_private->xStart(); 
}

double Matrix::yStart() const
{ 
	return d_matrix_private->yStart(); 
}

double Matrix::xEnd() const
{ 
	return d_matrix_private->xEnd(); 
}

double Matrix::yEnd() const
{ 
	return d_matrix_private->yEnd(); 
}

QString Matrix::formula() const
{ 
	return d_matrix_private->formula(); 
}

void Matrix::setFormula(const QString & formula)
{
	WAIT_CURSOR;
	exec(new MatrixSetFormulaCmd(d_matrix_private, formula));
	RESET_CURSOR;
}

char Matrix::numericFormat() const 
{ 
	return d_matrix_private->numericFormat(); 
}

int Matrix::displayedDigits() const 
{ 
	return d_matrix_private->displayedDigits(); 
}

void Matrix::save(QXmlStreamWriter * writer) const
{
	int cols = columnCount();
	int rows = rowCount();
	writer->writeStartElement("matrix");
	writeBasicAttributes(writer);
	writer->writeAttribute("columns", QString::number(cols));
	writer->writeAttribute("rows", QString::number(rows));
	writeCommentElement(writer);
	writer->writeStartElement("formula");
	writer->writeCharacters(formula());
	writer->writeEndElement();
	writer->writeStartElement("display");
	writer->writeAttribute("numeric_format", QString(QChar(numericFormat())));
	writer->writeAttribute("displayed_digits", QString::number(displayedDigits()));
	writer->writeEndElement();
	writer->writeStartElement("coordinates");
	writer->writeAttribute("x_start", QString::number(xStart()));
	writer->writeAttribute("x_end", QString::number(xEnd()));
	writer->writeAttribute("y_start", QString::number(yStart()));
	writer->writeAttribute("y_end", QString::number(yEnd()));
	writer->writeEndElement();

	for (int col=0; col<cols; col++)
		for (int row=0; row<rows; row++)
		{
			writer->writeStartElement("cell");
			writer->writeAttribute("row", QString::number(row));
			writer->writeAttribute("column", QString::number(col));
			writer->writeCharacters(QString::number(cell(row, col), 'e', 16));
			writer->writeEndElement();
		}
	for (int col=0; col<cols; col++)
	{
		writer->writeStartElement("column_width");
		writer->writeAttribute("column", QString::number(col));
		writer->writeCharacters(QString::number(columnWidth(col)));
		writer->writeEndElement();
	}
	for (int row=0; row<rows; row++)
	{
		writer->writeStartElement("row_height");
		writer->writeAttribute("row", QString::number(row));
		writer->writeCharacters(QString::number(rowHeight(row)));
		writer->writeEndElement();
	}
	writer->writeEndElement(); // "matrix"
}


bool Matrix::load(XmlStreamReader * reader)
{
	if(reader->isStartElement() && reader->name() == "matrix") 
	{
		setDimensions(0, 0);
		setComment("");
		setFormula("");
		setNumericFormat('f');
		setDisplayedDigits(6);
		setCoordinates(0.0, 1.0, 0.0, 1.0);

		if (!readBasicAttributes(reader)) return false;

		// read dimensions
		bool ok1, ok2;
		int rows, cols;
		rows = reader->readAttributeInt("rows", &ok1);
		cols = reader->readAttributeInt("columns", &ok2);
		if(!ok1 || !ok2) 
		{
			reader->raiseError(tr("invalid row or column count"));
			return false;
		}
		d_matrix_private->blockChangeSignals(true);
		setDimensions(rows, cols);

		// read child elements
		while (!reader->atEnd()) 
		{
			reader->readNext();

			if (reader->isEndElement()) break;

			if (reader->isStartElement()) 
			{
				bool ret_val = true;
				if (reader->name() == "comment")
					ret_val = readCommentElement(reader);
				else if(reader->name() == "formula")
					ret_val = readFormulaElement(reader);
				else if(reader->name() == "display")
					ret_val = readDisplayElement(reader);
				else if(reader->name() == "coordinates")
					ret_val = readCoordinatesElement(reader);
				else if(reader->name() == "cell")
					ret_val = readCellElement(reader);
				else if(reader->name() == "row_height")
					ret_val = readRowHeightElement(reader);
				else if(reader->name() == "column_width")
					ret_val = readColumnWidthElement(reader);
				else // unknown element
				{
					reader->raiseWarning(tr("unknown element '%1'").arg(reader->name().toString()));
					if (!reader->skipToEndElement()) return false;
				}
				if(!ret_val) return false;
			} 
		}
		d_matrix_private->blockChangeSignals(false);
	}
	else // no matrix element
		reader->raiseError(tr("no matrix element found"));

	return !reader->hasError();
}

bool Matrix::readDisplayElement(XmlStreamReader * reader)
{
	Q_ASSERT(reader->isStartElement() && reader->name() == "display");
	QXmlStreamAttributes attribs = reader->attributes();

	QString str = attribs.value(reader->namespaceUri().toString(), "numeric_format").toString();
	if(str.isEmpty() || str.length() != 1)
	{
		reader->raiseError(tr("invalid or missing numeric format"));
		return false;
	}
	setNumericFormat(str.at(0).toAscii());
	
	bool ok;
	int digits = reader->readAttributeInt("displayed_digits", &ok);
	if(!ok)
	{
		reader->raiseError(tr("invalid or missing number of displayed digits"));
		return false;
	}
	setDisplayedDigits(digits);
	if (!reader->skipToEndElement()) return false;

	return true;
}

bool Matrix::readCoordinatesElement(XmlStreamReader * reader)
{
	Q_ASSERT(reader->isStartElement() && reader->name() == "coordinates");

	bool ok;
	int val;

	val = reader->readAttributeInt("x_start", &ok);
	if(!ok)
	{
		reader->raiseError(tr("invalid x start value"));
		return false;
	}
	setXStart(val);

	val = reader->readAttributeInt("x_end", &ok);
	if(!ok)
	{
		reader->raiseError(tr("invalid x end value"));
		return false;
	}
	setXEnd(val);

	val = reader->readAttributeInt("y_start", &ok);
	if(!ok)
	{
		reader->raiseError(tr("invalid y start value"));
		return false;
	}
	setYStart(val);

	val = reader->readAttributeInt("y_end", &ok);
	if(!ok)
	{
		reader->raiseError(tr("invalid y end value"));
		return false;
	}
	setYEnd(val);
	if (!reader->skipToEndElement()) return false;

	return true;
}

bool Matrix::readFormulaElement(XmlStreamReader * reader)
{
	Q_ASSERT(reader->isStartElement() && reader->name() == "formula");
	setFormula(reader->readElementText());
	return true;
}

bool Matrix::readRowHeightElement(XmlStreamReader * reader)
{
	Q_ASSERT(reader->isStartElement() && reader->name() == "row_height");
	bool ok;
	int row = reader->readAttributeInt("row", &ok);
	if(!ok)
	{
		reader->raiseError(tr("invalid or missing row index"));
		return false;
	}
	QString str = reader->readElementText();
	int value = str.toInt(&ok);
	if(!ok)
	{
		reader->raiseError(tr("invalid row height"));
		return false;
	}
	if (d_view)
		d_view->setRowHeight(row, value);
	else
		setRowHeight(row, value);
	return true;
}

bool Matrix::readColumnWidthElement(XmlStreamReader * reader)
{
	Q_ASSERT(reader->isStartElement() && reader->name() == "column_width");
	bool ok;
	int col = reader->readAttributeInt("column", &ok);
	if(!ok)
	{
		reader->raiseError(tr("invalid or missing column index"));
		return false;
	}
	QString str = reader->readElementText();
	int value = str.toInt(&ok);
	if(!ok)
	{
		reader->raiseError(tr("invalid column width"));
		return false;
	}
	if (d_view)
		d_view->setColumnWidth(col, value);
	else
		setColumnWidth(col, value);
	return true;
}

bool Matrix::readCellElement(XmlStreamReader * reader)
{
	Q_ASSERT(reader->isStartElement() && reader->name() == "cell");
	
	QString str;
	int row, col;
	bool ok;

	QXmlStreamAttributes attribs = reader->attributes();
	row = reader->readAttributeInt("row", &ok);
	if(!ok)
	{
		reader->raiseError(tr("invalid or missing row index"));
		return false;
	}
	col = reader->readAttributeInt("column", &ok);
	if(!ok)
	{
		reader->raiseError(tr("invalid or missing column index"));
		return false;
	}

	str = reader->readElementText();
	double value = str.toDouble(&ok);
	if(!ok)
	{
		reader->raiseError(tr("invalid cell value"));
		return false;
	}
	setCell(row, col, value);

	return true;
}

void Matrix::setRowHeight(int row, int height) 
{ 
	d_matrix_private->setRowHeight(row, height); 
}

void Matrix::setColumnWidth(int col, int width) 
{ 
	d_matrix_private->setColumnWidth(col, width); 
}

int Matrix::rowHeight(int row) const 
{ 
	return d_matrix_private->rowHeight(row); 
}

int Matrix::columnWidth(int col) const 
{ 
	return d_matrix_private->columnWidth(col); 
}

void Matrix::adjustTabBarAction(bool visible)
{
	if(visible) 
		action_toggle_tabbar->setText(tr("Hide Controls"));
	else
		action_toggle_tabbar->setText(tr("Show Controls"));
}

QVector<qreal> Matrix::columnCells(int col, int first_row, int last_row)
{
	return d_matrix_private->columnCells(col, first_row, last_row);
}

void Matrix::setColumnCells(int col, int first_row, int last_row, const QVector<qreal> & values)
{
	WAIT_CURSOR;
	exec(new MatrixSetColumnCellsCmd(d_matrix_private, col, first_row, last_row, values));
	RESET_CURSOR;
}

QVector<qreal> Matrix::rowCells(int row, int first_column, int last_column)
{
	return d_matrix_private->rowCells(row, first_column, last_column);
}

void Matrix::setRowCells(int row, int first_column, int last_column, const QVector<qreal> & values)
{
	WAIT_CURSOR;
	exec(new MatrixSetRowCellsCmd(d_matrix_private, row, first_column, last_column, values));
	RESET_CURSOR;
}

void Matrix::transpose()
{
	WAIT_CURSOR;
	exec(new MatrixTransposeCmd(d_matrix_private));
	RESET_CURSOR;
}

void Matrix::mirrorHorizontally()
{
	WAIT_CURSOR;
	exec(new MatrixMirrorHorizontallyCmd(d_matrix_private));
	RESET_CURSOR;
}

void Matrix::mirrorVertically()
{
	WAIT_CURSOR;
	exec(new MatrixMirrorVerticallyCmd(d_matrix_private));
	RESET_CURSOR;
}

void Matrix::recalculateSelectedCells()
{
	if (!d_view) return;
#ifdef LEGACY_CODE_0_2_x
	WAIT_CURSOR;
	beginMacro(tr("%1: apply formula to selection").arg(name()));
	emit recalculate();
	endMacro();
	RESET_CURSOR;
#endif
}


/* ========================= static methods ======================= */
ActionManager * Matrix::action_manager = 0;

ActionManager * Matrix::actionManager()
{
	if (!action_manager)
		initActionManager();
	
	return action_manager;
}

void Matrix::initActionManager()
{
	if (!action_manager)
		action_manager = new ActionManager();

	action_manager->setTitle(tr("Matrix"));
	volatile Matrix * action_creator = new Matrix(); // initialize the action texts
	delete action_creator;
}

Matrix * Matrix::fromImage(const QImage & image)
{
	int cols = image.width();
	int rows = image.height();

	QProgressDialog progress;
	progress.setRange(0, cols);
	progress.setWindowTitle(tr("SciDAVis") + " - " + tr("Import image..."));
	progress.raise();

	Matrix * matrix = new Matrix(0, rows, cols, tr("Matrix %1").arg(1));

	QVector<qreal> values;
	values.resize(rows);

	for (int i=0; i<cols; i++)
	{
		for (int j=0; j<rows; j++)
			values[j] = qGray(image.pixel(i, rows - 1 - j));
		
		matrix->setColumnCells(i, 0, rows-1, values);

		if (i%5 == 4)
		{
		    progress.setValue(i);
		    QApplication::processEvents();
		}

        if (progress.wasCanceled())
            break;
	}

	if (progress.wasCanceled())
	{
		delete matrix;
		return NULL;
	}
	return matrix;
}

/* ========================== Matrix::Private ====================== */

Matrix::Private::Private(Matrix *owner) 
	: d_owner(owner), d_column_count(0), d_row_count(0) 
{
	d_block_change_signals = false;
	d_numeric_format = 'f';
	d_displayed_digits = 6;
	d_x_start = 0.0;
	d_x_end = 1.0;  
	d_y_start = 0.0; 
	d_y_end = 1.0;
}

void Matrix::Private::insertColumns(int before, int count)
{
	Q_ASSERT(before >= 0);
	Q_ASSERT(before <= d_column_count);

	emit d_owner->columnsAboutToBeInserted(before, count);
	for(int i=0; i<count; i++)
	{
		d_data.insert(before+i, QVector<qreal>(d_row_count));
		d_column_widths.insert(before+i, Matrix::defaultColumnWidth());
	}

	d_column_count += count;
	emit d_owner->columnsInserted(before, count);
}

void Matrix::Private::removeColumns(int first, int count)
{
	emit d_owner->columnsAboutToBeRemoved(first, count);
	Q_ASSERT(first >= 0);
	Q_ASSERT(first+count <= d_column_count);
	d_data.remove(first, count);
	for (int i=0; i<count; i++)
		d_column_widths.removeAt(first);
	d_column_count -= count;
	emit d_owner->columnsRemoved(first, count);
}

void Matrix::Private::insertRows(int before, int count)
{
	emit d_owner->rowsAboutToBeInserted(before, count);
	Q_ASSERT(before >= 0);
	Q_ASSERT(before <= d_row_count);
	for(int col=0; col<d_column_count; col++)
		for(int i=0; i<count; i++)
			d_data[col].insert(before+i, 0.0);
	for(int i=0; i<count; i++)
		d_row_heights.insert(before+i, Matrix::defaultRowHeight());

	d_row_count += count;
	emit d_owner->rowsInserted(before, count);
}

void Matrix::Private::removeRows(int first, int count)
{
	emit d_owner->rowsAboutToBeRemoved(first, count);
	Q_ASSERT(first >= 0);
	Q_ASSERT(first+count <= d_row_count);
	for(int col=0; col<d_column_count; col++)
		d_data[col].remove(first, count);
	for (int i=0; i<count; i++)
		d_row_heights.removeAt(first);

	d_row_count -= count;
	emit d_owner->rowsRemoved(first, count);
}

double Matrix::Private::cell(int row, int col) const
{
	Q_ASSERT(row >= 0 && row < d_row_count);
	Q_ASSERT(col >= 0 && col < d_column_count);
	return d_data.at(col).at(row);
}

void Matrix::Private::setCell(int row, int col, double value)
{
	Q_ASSERT(row >= 0 && row < d_row_count);
	Q_ASSERT(col >= 0 && col < d_column_count);
	d_data[col][row] = value;
	if (!d_block_change_signals)
		emit d_owner->dataChanged(row, col, row, col);
}

QVector<qreal> Matrix::Private::columnCells(int col, int first_row, int last_row)
{
	Q_ASSERT(first_row >= 0 && first_row < d_row_count);
	Q_ASSERT(last_row >= 0 && last_row < d_row_count);

	if(first_row == 0 && last_row == d_row_count-1)
		return d_data.at(col);

	QVector<qreal> result;
	for(int i=first_row; i<=last_row; i++)
		result.append(d_data.at(col).at(i));
	return result;
}

void Matrix::Private::setColumnCells(int col, int first_row, int last_row, const QVector<qreal> & values)
{
	Q_ASSERT(first_row >= 0 && first_row < d_row_count);
	Q_ASSERT(last_row >= 0 && last_row < d_row_count);
	Q_ASSERT(values.count() > last_row - first_row);

	if(first_row == 0 && last_row == d_row_count-1)
	{
		d_data[col] = values;
		d_data[col].resize(d_row_count);  // values may be larger
		if (!d_block_change_signals)
			emit d_owner->dataChanged(first_row, col, last_row, col);
		return;
	}

	for(int i=first_row; i<=last_row; i++)
		d_data[col][i] = values.at(i-first_row);
	if (!d_block_change_signals)
		emit d_owner->dataChanged(first_row, col, last_row, col);
}

QVector<qreal> Matrix::Private::rowCells(int row, int first_column, int last_column)
{
	Q_ASSERT(first_column >= 0 && first_column < d_column_count);
	Q_ASSERT(last_column >= 0 && last_column < d_column_count);

	QVector<qreal> result;
	for(int i=first_column; i<=last_column; i++)
		result.append(d_data.at(i).at(row));
	return result;
}

void Matrix::Private::setRowCells(int row, int first_column, int last_column, const QVector<qreal> & values)
{
	Q_ASSERT(first_column >= 0 && first_column < d_column_count);
	Q_ASSERT(last_column >= 0 && last_column < d_column_count);
	Q_ASSERT(values.count() > last_column - first_column);

	for(int i=first_column; i<=last_column; i++)
		d_data[i][row] = values.at(i-first_column);
	if (!d_block_change_signals)
		emit d_owner->dataChanged(row, first_column, row, last_column);
}

void Matrix::Private::clearColumn(int col)
{
	d_data[col].fill(0.0);
	if (!d_block_change_signals)
		emit d_owner->dataChanged(0, col, d_row_count-1, col);
}

double Matrix::Private::xStart() const
{
	return d_x_start;
}

double Matrix::Private::yStart() const
{
	return d_y_start;
}

double Matrix::Private::xEnd() const
{ 
	return d_x_end;
}

double Matrix::Private::yEnd() const
{ 
	return d_y_end;
}

void Matrix::Private::setXStart(double x)
{ 
	d_x_start = x;
	emit d_owner->coordinatesChanged();
}

void Matrix::Private::setXEnd(double x)
{ 
	d_x_end = x;
	emit d_owner->coordinatesChanged();
}

void Matrix::Private::setYStart(double y)
{ 
	d_y_start = y;
	emit d_owner->coordinatesChanged();
}

void Matrix::Private::setYEnd(double y)
{ 
	d_y_end = y;
	emit d_owner->coordinatesChanged();
}

QString Matrix::Private::formula() const
{ 
	return d_formula;
}

void Matrix::Private::setFormula(const QString & formula)
{ 
	d_formula = formula;
	emit d_owner->formulaChanged();
}

} // namespace
